Advanced system design concepts facilitating silicon based VLSI chip packaging and interconnection techniques

Proceedings. VLSI and Computer Peripherals. COMPEURO 89 Pub Date : 1989-05-08 DOI:10.1109/CMPEUR.1989.93486

A. Blum, M. Briska, K. Najmann, M. Schmidt

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引用次数: 2

Abstract

Potentially, the silicon-based VLSI chip packaging and interconnection technology (hybrid wafer-scale integration, HWSI) provides for several thousand high-speed interconnections between individual VLSI chips, allowing an electrically homogeneous chip-boundary-transparent clustering of a tremendous amount of digital circuitry. Therefore, the abstract-structured logic-design methodology can also be efficiently used for more complex system structures, such as an entire central electronic complex of a supermini-computer, which may comprise a multitude of VLSI chips executing heterogeneous system functions. A brief introduction to an abstract-structured digital design utilizing increased intercommunication resources between functional logic modules is given, along with a description of several potential realization concepts of the silicon-based VLSI chip-interconnection technology, which provides an extraordinarily high pin count. In addition, the key aspects of the technology are outlined, and their potential use in system-level design is illustrated by several intercommunication-intensive implementation examples.<>

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先进的系统设计理念促进了基于硅的VLSI芯片封装和互连技术

潜在地，基于硅的VLSI芯片封装和互连技术(混合晶圆级集成，HWSI)在单个VLSI芯片之间提供数千个高速互连，允许大量数字电路的电气均匀芯片边界透明集群。因此，抽象结构逻辑设计方法也可以有效地用于更复杂的系统结构，例如超小型计算机的整个中央电子复合体，它可能包含许多执行异构系统功能的VLSI芯片。简要介绍了利用功能逻辑模块之间增加的相互通信资源的抽象结构数字设计，并描述了基于硅的VLSI芯片互连技术的几个潜在实现概念，该技术提供了极高的引脚数。此外，还概述了该技术的关键方面，并通过几个通信密集的实现示例说明了它们在系统级设计中的潜在用途。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Proceedings. VLSI and Computer Peripherals. COMPEURO 89

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